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How making and sharing video games offer educational benefits for coding, collaboration, and creativity.

Over the last decade, video games designed to teach academic content have multiplied. Students can learn about Newtonian physics from a game or prep for entry into the army. An emphasis on the instructionist approach to gaming, however, has overshadowed the constructionist approach, in which students learn by designing their own games themselves. In this book, Yasmin Kafai and Quinn Burke discuss the educational benefits of constructionist gaming—coding, collaboration, and creativity—and the move from “computational thinking” toward “computational participation.”

Kafai and Burke point to recent developments that support a shift to game making from game playing, including the game industry's acceptance, and even promotion, of “modding” and the growth of a DIY culture. Kafai and Burke show that student-designed games teach not only such technical skills as programming but also academic subjects. Making games also teaches collaboration, as students frequently work in teams to produce content and then share their games with in class or with others online. Yet Kafai and Burke don't advocate abandoning instructionist for constructionist approaches. Rather, they argue for a more comprehensive, inclusive idea of connected gaming in which both making and gaming play a part.

Why every child needs to learn to code: the shift from “computational thinking” to computational participation.

Coding, once considered an arcane craft practiced by solitary techies, is now recognized by educators and theorists as a crucial skill, even a new literacy, for all children. Programming is often promoted in K-12 schools as a way to encourage “computational thinking”—which has now become the umbrella term for understanding what computer science has to contribute to reasoning and communicating in an ever-increasingly digital world.

In Connected Code, Yasmin Kafai and Quinn Burke argue that although computational thinking represents an excellent starting point, the broader conception of “computational participation” better captures the twenty-first-century reality. Computational participation moves beyond the individual to focus on wider social networks and a DIY culture of digital “making.”

Kafai and Burke describe contemporary examples of computational participation: students who code not for the sake of coding but to create games, stories, and animations to share; the emergence of youth programming communities; the practices and ethical challenges of remixing (rather than starting from scratch); and the move beyond stationary screens to programmable toys, tools, and textiles.